KR100799296B1 - The control valve where the sensor is affixed - Google Patents

Abstract

The present invention relates to a control valve in which a sensor is mounted. In the control valve of a valve driving apparatus used as a power source for a machine cylinder or an actuator, a space portion having a predetermined depth is formed in an upper center thereof, and a groove is formed around the space portion. A receiving portion having a predetermined height toward the upper portion is formed at the lower center thereof, and a magnetic field is formed as the control valve is operated by being accommodated in the space provided at the lower portion of the control valve and the space formed at the upper portion of the body. A holder having a moving magnet having a stepped portion formed therein, a spring interposed between the space portion and the stepped portion of the moving magnetic, and a receiving portion formed at a lower portion of the body and having a non-contact sensor mounted therein. Characterized in that comprises a.

According to the present invention, it is possible to grasp the operating state and the current state of the control valve of the valve drive device used as a power source for a machine cylinder or an actuator from the outside.

Control valve, body, moving magnetic, non-contact sensor

Description

Control valve where the sensor is affixed}

1 is a front view showing a control valve of the present invention.

2 is a cross-sectional view showing a control valve of the present invention.

※ Explanation of code for main part of drawing

1: control valve 10: body

12: space part 14: groove

16: accommodating part 20: moving magnetic

22: step portion 30: spring

40 holder 50 non-contact sensor

The present invention relates to a control valve in which a sensor is mounted, and more particularly, to a control valve of a valve driving device used as a power source for a machine cylinder or an actuator, such as a control valve equipped with a sensor for grasping an operation state and a current situation. It is about.

BACKGROUND ART In general, a valve driving device using a needle valve as an open / close valve has been conventionally used as an apparatus for opening and closing a flow path of a refrigerant of a refrigerator or an air conditioner, and controlling a temperature of a room passing through the flow path.

The valve driving device using the needle valve has a structure in which a screw portion is engaged with the outer circumference of the motor rotation shaft and the inner circumference of the tubular member disposed outside the rotation shaft in order to convert the rotational force of the stepping motor into the output of the needle valve. It is.

In addition, a control valve of a valve driving apparatus used as a power source for a conventional machine cylinder or an actuator has a problem in that the machine is broken because it suddenly stops when the pressure is lower than or above the set pressure or when the operation is poor.

The present invention has been made to solve the above problems, and provides a control valve equipped with a sensor that can grasp the operating state and the current situation from the outside of the control valve of the valve drive device used as a power source for the machine cylinder or actuator, etc. The purpose is to.

In order to achieve the above object, the present invention, in the control valve of the valve drive device used as a power source, such as a machine cylinder or actuator, the upper portion is formed with a space having a predetermined depth in the center and the groove is formed around the space portion A receiving portion having a predetermined height toward the upper portion is formed in the center thereof, and a magnetic field is formed as the control valve operates by being accommodated in a space installed at the lower portion of the control valve and the space portion formed at the upper portion of the body. A holder having a moving magnet having a stepped portion formed therein, a spring interposed between the space portion and the stepped portion of the moving magnetic, and a receiving portion formed at a lower portion of the body and having a non-contact sensor mounted therein. Characterized in that comprises a.

Hereinafter, the configuration of the present invention with reference to the accompanying drawings as follows.

1 is a front view showing a control valve of the present invention, Figure 2 is a cross-sectional view showing a control valve of the present invention.

The present invention is the body 10 is installed separately in the lower portion of the control valve 1, the movable magnetic 20 accommodated in the upper portion of the body 10, and the holder 40 is received in the lower portion of the body 10 ) And the non-contact sensor 50 accommodated in the holder 40.

A space 12 having a predetermined depth toward the bottom is formed in the upper center of the body 10, and a protrusion 18 is formed around the space 12, and a threaded portion is formed as an outer circumferential surface of the protrusion 18. Is formed is coupled to the control valve (1).

Grooves 14 are formed along the circumference of the protrusions 18, and springs 110 are interposed between the grooves 14 to transmit shock and force during operation of the control valve 1.

At this time, a packing 200 is formed on the surface where the control valve 1 and the body 10 abut to prevent air from flowing out.

And the receiving portion 16 having a predetermined height from the lower center of the body 10 to the upper portion is formed, the diameter of the receiving portion 16 is formed to be the same as the diameter of the space portion 12, The space between the space portion 12 and the receiving portion 16 is preferably formed to a distance that can be transmitted to the magnetic field smoothly.

The movable magnet 20 mounted to the space 12 of the body 10 has a stepped portion 22 formed along the circumference thereof and the lower end is formed to be inclined with respect to the center. In this case, the lower end is formed to be inclined with respect to the center in order not only to prevent the magnetic field from being dispersed, but also to smoothly transfer the magnetic field to the non-contact sensor 50.

In addition, a spring 30 is interposed between the bottom of the space 12 and the bottom of the stepped part 22. The spring 30 is used for various types of springs. Here, an example in which a coil spring is used will be described. The spring 30 stores the force when the moving magnet 20 is lowered by the operation of the control valve 1 and raises the moving magnet 20 to its original position when the work is completed. Will be

The holder 40 interposed in the receiving portion 16 of the body 10 has a predetermined thickness and an accommodation space 42 is formed therein. At this time, in order to prevent the holder 40 from falling out of the receiving portion 16, the receiving portion 16 and the holder 40 is formed to be interference fit or the outer peripheral surface and the receiving portion 16 of the holder 40 It is effective that the thread is formed on the inner peripheral surface of the coupling.

As the sensor 50 mounted in the receiving space 42 of the holder 40, various sensors may be used. Here, two contact lines 52 are formed therein as glass sensors, and when a magnetic field is generated, a contact or a magnetic field is generated. It is formed to fall off when it occurs.

In addition, an auxiliary body 60 having a space 62 therein is formed and coupled to a lower portion of the body 10, and inside the auxiliary body 60, a contact line 52 of the glass sensor 50 is formed. Terminals 64 to be connected are formed and coupled.

An embodiment of the control valve 1 configured as described above is as follows.

First, the body 10 is coupled to the lower portion of the control valve (1), at this time, the moving magnet 20 in the space portion 12 of the body 10, but the step of the moving magnetic (20) A spring 30 is interposed between the bottom of the portion 22 and the space 12.

In addition, the grooves 14 of the body 10 are interposed with a spring 110, and the contact surface between the control valve 1 and the body 10 is installed with the packing 200 interposed therebetween. ), The holder 40, which is provided with the non-contact sensor 50, is installed by being inserted into the receiving portion 16.

Next, an auxiliary body 60 having a space 62 therein is formed and coupled to the lower portion of the body 10.

When the control valve is operated while the assembly is completed as described above, if the set pressure is less than or equal to the set pressure, the shaft formed on the control valve descends and presses the moving magnetic.

Next, the movable magnetic pole descends and transmits a magnetic field to a non-contact sensor formed at a lower portion around a vertex formed at an end portion, and the contact line of the non-contact sensor is grounded or short-circuited to send a signal to the outside to operate externally. You will know whether or not.

According to the present invention, it is possible to grasp the operating state and the current state of the control valve of the valve drive device used as a power source for a machine cylinder or an actuator from the outside.

Claims (2)

In the control valve of the valve drive device used as a power source for the machine cylinder or actuator, A space portion 12 having a predetermined depth is formed in the upper center, a groove 14 is formed around the space portion 12, and a receiving portion 16 having a predetermined height toward the upper portion is formed in the lower center. A body 10 installed below the control valve 1; The movable magnetic part 20 is accommodated in the space portion 12 formed on the upper portion of the body 10 to form a magnetic field as the control valve 1 operates, and a stepped portion 22 is formed around the upper portion. and; A spring 30 interposed between the space portion 12 and the stepped portion 22 of the movable magnetic 20; A holder (40) interposed in the receiving portion (16) formed at the bottom of the body (10) and having a non-contact sensor (50) mounted therein; Control valve is equipped with a sensor, characterized in that comprises a. The method of claim 1, The lower end of the movable magnetic 20 is a control valve equipped with a sensor, characterized in that formed inclined with respect to the center.

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